M7™ compact cost-effective MRI system dedicated for imaging of mice and rats

The M7™ compact, high-performance, one-touch MRI system is intended for dedicated imaging of mice and rats weighing up to 700 grams. The M7 enables 2D and 3D, ex vivo, in vivo and in vitro imaging. The system can be uniquely placed behind the bio-containment barrier for in vivo imaging. In addition to its comprehensive suite of applications for mouse phenotyping, Aspect Imaging’s LumiQuant™ package for generation of 3D tomographic quantification of luminescence and co-registration with compact MR is optimized for use on the M7 platform.

One instrument, multiple applications

The M7 has all the capabilities to routinely and repeatedly quantify phenotypes in rats and mouse models of disease, including:

Cancer Research

Cardiovascular

Contrast-based Molecular Imaging

Diabetes and Obesity

Embryology / Developmental Biology

Nephrology

Neurobiology

Stem Cell / Cell Tracking

3D Whole Body Morphological Imaging

The M7 compact, high-performance MRI system enables high-resolution 3D whole body morphological imaging of rat and mouse models of disease. Biologists and researchers without prior MR or imaging experience can now leverage the gold standard modality – MRI – for morphological imaging. The M7 is an in vivo imaging platform that is:

Maintenance-free

The M7 provides a high-performance in vivo MRI system that is virtually maintenance free. The system requires:

No cryogens,

No auxiliary power, and

No compressors or plumbing that require servicing

Infrastructure-free

The M7, like all compact MRI systems from Aspect Imaging, can be placed in most locations in a facility and doesn’t require an infrastructure typically needed with superconducting MRI system or cryogen-free MRI systems. The system therefore does not require any of the following:

Ask an Application Specialist

We use cookies to offer you a better browsing experience, analyze site traffic, personalize content and serve targeted ads. By using our site, you consent to our use of cookies.
Click here to read our Cookie Policy.